Your search keyword '"Achille Iolascon"' showing total 515 results

1. Improving single nucleotide polymorphisms genotyping accuracy for dihydropyrimidine dehydrogenase testing in pharmacogenetics

Author

Annalaura Montella, Sueva Cantalupo, Giuseppe D’Alterio, Vincenzo Damiano, Achille Iolascon, and Mario Capasso

Subjects

pharmacogenetics, dihydropyrimidine dehydrogenase, genotyping, Internal medicine, RC31-1245

Abstract

Fluoropyrimidines, crucial in cancer treatment, often cause toxicity concerns even at standard doses. Toxic accumulation of fluoropyrimidine metabolites, culminating in adverse effects, can stem from impaired dihydropyrimidine dehydrogenase (DPYD) enzymatic function. Emerging evidence underscores the role of single nucleotide polymorphisms (SNPs) in DPYD gene, capable of inducing DPYD activity deficiency. Consequently, DPYD genotyping’s importance is on the rise in clinical practice before initiating fluoropyrimidine treatment. Although polymerase chain reaction (PCR) followed by Sanger sequencing (SS; PCR-SS) is a prevalent method for DPYD genotyping, it may encounter limitations. In this context, there is reported a case in which a routine PCR-SS approach for genotyping DPYD SNP rs55886062 failed in a proband of African descent. The Clinical Pharmacogenetics Implementation Consortium (CPIC) categorizes the guanine (G) allele of this SNP as non-functional. The enforcement of whole genome sequencing (WGS) approach led to the identification of two adenine (A) insertions near the PCR primers annealing regions in the proband, responsible for a sequence frameshift and a genotyping error for rs55886062. These SNPs (rs145228578, 1-97981199-T-TA and rs141050810, 1-97981622-G-GA) were extremely rare in non-Finnish Europeans (0.05%) but prevalent in African populations (16%). Although limited evidence was available for these SNPs, they were catalogued as benign variants in public databases. Notably, these two SNPs exhibited a high linkage disequilibrium [LD; squared correlation coefficient (R2) = 0.98]. These findings highlighted the importance to consider the prevalence of genetic variants within diverse ethnic populations when designing primers and probes for SNP genotyping in pharmacogenetic testing. This preventive measure is essential to avoid sequence frameshifts or primer misalignments arising from SNP occurrences in the genome, which can compromise PCR-SS and lead to genotyping failures. Furthermore, this case highlights the significance of exploring alternative genotyping approaches, like WGS, when confronted with challenges associated with conventional techniques.

Published

2024

2. Recommendations for diagnosis, treatment, and prevention of iron deficiency and iron deficiency anemia

Author

Achille Iolascon, Immacolata Andolfo, Roberta Russo, Mayka Sanchez, Fabiana Busti, Dorine Swinkels, Patricia Aguilar Martinez, Rayan Bou‐Fakhredin, Martina U. Muckenthaler, Sule Unal, Graça Porto, Tomas Ganz, Antonis Kattamis, Lucia De Franceschi, Maria Domenica Cappellini, Malcolm G. Munro, Ali Taher, and from EHA‐SWG Red Cell and Iron

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Iron is an essential nutrient and a constituent of ferroproteins and enzymes crucial for human life. Generally, nonmenstruating individuals preserve iron very efficiently, losing less than 0.1% of their body iron content each day, an amount that is replaced through dietary iron absorption. Most of the iron is in the hemoglobin (Hb) of red blood cells (RBCs); thus, blood loss is the most common cause of acute iron depletion and anemia worldwide, and reduced hemoglobin synthesis and anemia are the most common consequences of low plasma iron concentrations. The term iron deficiency (ID) refers to the reduction of total body iron stores due to impaired nutrition, reduced absorption secondary to gastrointestinal conditions, increased blood loss, and increased needs as in pregnancy. Iron deficiency anemia (IDA) is defined as low Hb or hematocrit associated with microcytic and hypochromic erythrocytes and low RBC count due to iron deficiency. IDA most commonly affects women of reproductive age, the developing fetus, children, patients with chronic and inflammatory diseases, and the elderly. IDA is the most frequent hematological disorder in children, with an incidence in industrialized countries of 20.1% between 0 and 4 years of age and 5.9% between 5 and 14 years (39% and 48.1% in developing countries). The diagnosis, management, and treatment of patients with ID and IDA change depending on age and gender and during pregnancy. We herein summarize what is known about the diagnosis, treatment, and prevention of ID and IDA and formulate a specific set of recommendations on this topic.

Published

2024

3. From the identification of actionable molecular targets to the generation of faithful neuroblastoma patient-derived preclinical models

Author

Mario Capasso, Chiara Brignole, Vito A. Lasorsa, Veronica Bensa, Sueva Cantalupo, Enrico Sebastiani, Alessandro Quattrone, Eleonora Ciampi, Marianna Avitabile, Angela R. Sementa, Katia Mazzocco, Barbara Cafferata, Gabriele Gaggero, Valerio G. Vellone, Michele Cilli, Enzo Calarco, Elena Giusto, Patrizia Perri, Sanja Aveic, Doriana Fruci, Annalisa Tondo, Roberto Luksch, Rossella Mura, Marco Rabusin, Francesco De Leonardis, Monica Cellini, Paola Coccia, Achille Iolascon, Maria V. Corrias, Massimo Conte, Alberto Garaventa, Loredana Amoroso, Mirco Ponzoni, and Fabio Pastorino

Subjects

Precision medicine, Neuroblastoma, Target therapy, Preclinical models, next generation sequencing, Medicine

Abstract

Abstract Background Neuroblastoma (NB) represents the most frequent and aggressive form of extracranial solid tumor of infants. Although the overall survival of patients with NB has improved in the last years, more than 50% of high-risk patients still undergo a relapse. Thus, in the era of precision/personalized medicine, the need for high-risk NB patient-specific therapies is urgent. Methods Within the PeRsonalizEd Medicine (PREME) program, patient-derived NB tumors and bone marrow (BM)-infiltrating NB cells, derived from either iliac crests or tumor bone lesions, underwent to histological and to flow cytometry immunophenotyping, respectively. BM samples containing a NB cells infiltration from 1 to 50 percent, underwent to a subsequent NB cells enrichment using immune-magnetic manipulation. Then, NB samples were used for the identification of actionable targets and for the generation of 3D/tumor-spheres and Patient-Derived Xenografts (PDX) and Cell PDX (CPDX) preclinical models. Results Eighty-four percent of NB-patients showed potentially therapeutically targetable somatic alterations (including point mutations, copy number variations and mRNA over-expression). Sixty-six percent of samples showed alterations, graded as “very high priority”, that are validated to be directly targetable by an approved drug or an investigational agent. A molecular targeted therapy was applied for four patients, while a genetic counseling was suggested to two patients having one pathogenic germline variant in known cancer predisposition genes. Out of eleven samples implanted in mice, five gave rise to (C)PDX, all preserved in a local PDX Bio-bank. Interestingly, comparing all molecular alterations and histological and immunophenotypic features among the original patient’s tumors and PDX/CPDX up to second generation, a high grade of similarity was observed. Notably, also 3D models conserved immunophenotypic features and molecular alterations of the original tumors. Conclusions PREME confirms the possibility of identifying targetable genomic alterations in NB, indeed, a molecular targeted therapy was applied to four NB patients. PREME paves the way to the creation of clinically relevant repositories of faithful patient-derived (C)PDX and 3D models, on which testing precision, NB standard-of-care and experimental medicines.

Published

2024

4. Host genetics and COVID-19 severity: increasing the accuracy of latest severity scores by Boolean quantum features

Author

Gabriele Martelloni, Alessio Turchi, Chiara Fallerini, Andrea Degl’Innocenti, Margherita Baldassarri, Simona Olmi, Simone Furini, Alessandra Renieri, GEN-COVID Multicenter study, Francesca Mari, Sergio Daga, Ilaria Meloni, Mirella Bruttini, Susanna Croci, Mirjam Lista, Debora Maffeo, Elena Pasquinelli, Giulia Brunelli, Kristina Zguro, Viola Bianca Serio, Enrica Antolini, Simona Letizia Basso, Samantha Minetto, Giulia Rollo, Martina Rozza, Angela Rina, Rossella Tita, Maria Antonietta Mencarelli, Caterina Lo Rizzo, Anna Maria Pinto, Francesca Ariani, Francesca Montagnani, Mario Tumbarello, Ilaria Rancan, Massimiliano Fabbiani, Elena Bargagli, Laura Bergantini, Miriana d’Alessandro, Paolo Cameli, David Bennett, Federico Anedda, Simona Marcantonio, Sabino Scolletta, Federico Franchi, Maria Antonietta Mazzei, Susanna Guerrini, Edoardo Conticini, Luca Cantarini, Bruno Frediani, Danilo Tacconi, Chiara Spertilli Raffaelli, Arianna Emiliozzi, Marco Feri, Alice Donati, Raffaele Scala, Luca Guidelli, Genni Spargi, Marta Corridi, Cesira Nencioni, Leonardo Croci, Gian Piero Caldarelli, Davide Romani, Paolo Piacentini, Maria Bandini, Elena Desanctis, Silvia Cappelli, Anna Canaccini, Agnese Verzuri, Valentina Anemoli, Manola Pisani, Agostino Ognibene, Maria Lorubbio, Alessandro Pancrazzi, Massimo Vaghi, Antonella D’Arminio Monforte, Federica Gaia Miraglia, Mario U. Mondelli, Stefania Mantovani, Raffaele Bruno, Marco Vecchia, Marcello Maffezzoni, Enrico Martinelli, Massimo Girardis, Stefano Busani, Sophie Venturelli, Andrea Cossarizza, Andrea Antinori, Alessandra Vergori, Stefano Rusconi, Matteo Siano, Arianna Gabrieli, Agostino Riva, Daniela Francisci, Elisabetta Schiaroli, Carlo Pallotto, Saverio Giuseppe Parisi, Monica Basso, Sandro Panese, Stefano Baratti, Pier Giorgio Scotton, Francesca Andretta, Mario Giobbia, Renzo Scaggiante, Francesca Gatti, Francesco Castelli, Eugenia Quiros-Roldan, Melania Degli Antoni, Isabella Zanella, Matteo della Monica, Carmelo Piscopo, Mario Capasso, Roberta Russo, Immacolata Andolfo, Achille Iolascon, Giuseppe Fiorentino, Massimo Carella, Marco Castori, Giuseppe Merla, Gabriella Maria Squeo, Filippo Aucella, Pamela Raggi, Rita Perna, Matteo Bassetti, Antonio Di Biagio, Maurizio Sanguinetti, Luca Masucci, Alessandra Guarnaccia, Serafina Valente, Alex Di Florio, Marco Mandalà, Alessia Giorli, Lorenzo Salerni, Patrizia Zucchi, Pierpaolo Parravicini, Elisabetta Menatti, Tullio Trotta, Ferdinando Giannattasio, Gabriella Coiro, Fabio Lena, Gianluca Lacerenza, Cristina Mussini, Luisa Tavecchia, Lia Crotti, Gianfranco Parati, Roberto Menè, Maurizio Sanarico, Marco Gori, Francesco Raimondi, Alessandra Stella, Filippo Biscarini, Tiziana Bachetti, Maria Teresa La Rovere, Maurizio Bussotti, Serena Ludovisi, Katia Capitani, Simona Dei, Sabrina Ravaglia, Annarita Giliberti, Giulia Gori, Rosangela Artuso, Elena Andreucci, Angelica Pagliazzi, Erika Fiorentini, Antonio Perrella, Francesco Bianchi, Paola Bergomi, Emanuele Catena, Riccardo Colombo, Sauro Luchi, Giovanna Morelli, Paola Petrocelli, Sarah Iacopini, Sara Modica, Silvia Baroni, Giulia Micheli, Marco Falcone, Donato Urso, Giusy Tiseo, Tommaso Matucci, Davide Grassi, Claudio Ferri, Franco Marinangeli, Francesco Brancati, Antonella Vincenti, Valentina Borgo, Stefania Lombardi, Mirco Lenzi, Massimo Antonio Di Pietro, Francesca Vichi, Benedetta Romanin, Letizia Attala, Cecilia Costa, Andrea Gabbuti, Alessio Bellucci, Marta Colaneri, Patrizia Casprini, Cristoforo Pomara, Massimiliano Esposito, Roberto Leoncini, Michele Cirianni, Lucrezia Galasso, Marco Antonio Bellini, Chiara Gabbi, and Nicola Picchiotti

Subjects

COVID-19, host genetics, integrated polygenic score, genetic algorithm, logistic regression, genetic science modeling, Genetics, QH426-470

Abstract

The impact of common and rare variants in COVID-19 host genetics has been widely studied. In particular, in Fallerini et al. (Human genetics, 2022, 141, 147–173), common and rare variants were used to define an interpretable machine learning model for predicting COVID-19 severity. First, variants were converted into sets of Boolean features, depending on the absence or the presence of variants in each gene. An ensemble of LASSO logistic regression models was used to identify the most informative Boolean features with respect to the genetic bases of severity. After that, the Boolean features, selected by these logistic models, were combined into an Integrated PolyGenic Score (IPGS), which offers a very simple description of the contribution of host genetics in COVID-19 severity.. IPGS leads to an accuracy of 55%–60% on different cohorts, and, after a logistic regression with both IPGS and age as inputs, it leads to an accuracy of 75%. The goal of this paper is to improve the previous results, using not only the most informative Boolean features with respect to the genetic bases of severity but also the information on host organs involved in the disease. In this study, we generalize the IPGS adding a statistical weight for each organ, through the transformation of Boolean features into “Boolean quantum features,” inspired by quantum mechanics. The organ coefficients were set via the application of the genetic algorithm PyGAD, and, after that, we defined two new integrated polygenic scores (IPGSph1 and IPGSph2). By applying a logistic regression with both IPGS, (IPGSph2 (or indifferently IPGSph1) and age as inputs, we reached an accuracy of 84%–86%, thus improving the results previously shown in Fallerini et al. (Human genetics, 2022, 141, 147–173) by a factor of 10%.

Published

2024

5. Trisomy 21 with Maternally Inherited Balanced Translocation (15q;22q) in a Female Fetus: A Rare Case of Probable Interchromosomal Effect

Author

Alessandro De Falco, Antonella Gambale, Michele Pinelli, Teresa Suero, Luigia De Falco, Achille Iolascon, and Stefania Martone

Subjects

Robertsonian translocation, trisomy 21 (Down syndrome), interchromosomal effect (ICE) prenatal genetic counseling, karyotype, SNP array, Cytology, QH573-671

Abstract

Chromosomal rearrangements can interfere with the disjunction and segregation of other chromosome pairs not involved in the rearrangements, promoting the occurrence of numerical abnormalities in resulting gametes and predisposition to trisomy in offspring. This phenomenon of interference is known as the interchromosomal effect (ICE). Here we report a prenatal case potentially generated by ICE. The first-trimester screening ultrasound of the pregnant woman was normal, but the NIPT indicated a high risk for three copies of chromosome 21, thus suspecting trisomy 21 (T21). After a comprehensive clinical evaluation and genetic counseling, the couple decided to undergo amniocentesis. The prenatal karyotype confirmed T21 but also showed a balanced translocation between the long arm of chromosome 15 (q22) and the long arm of chromosome 22. The parents’ karyotypes also showed that the mother had the 15;22 translocation. We reviewed T21 screening methods, and we performed a literature review on ICE, a generally overlooked phenomenon. We observed that ours is the first report of a prenatal case potentially due to ICE derived from the mother. The recurrence risk of aneuploidy in the offspring of translocated individuals is likely slightly increased, but it is not possible to estimate to what extent. In addition to supporting observations, there are still open questions such as, how frequent is ICE? How much is the aneuploidy risk altered by ICE?

Published

2024

6. A multidisciplinary approach to inherited retinal dystrophies from diagnosis to initial care: a narrative review with inputs from clinical practice

Author

Vittoria Murro, Sandro Banfi, Francesco Testa, Giancarlo Iarossi, Benedetto Falsini, Andrea Sodi, Sabrina Signorini, Achille Iolascon, Roberta Russo, Dario Pasquale Mucciolo, Roberto Caputo, Giacomo Maria Bacci, Sara Bargiacchi, Simona Turco, Stefania Fortini, and Francesca Simonelli

Subjects

Inherited retinal diseases, Visual function, Clinical diagnosis, Molecular diagnosis, Multidisciplinary, Early-onset retinal dystrophy, Medicine

Abstract

Abstract Background Non-syndromic inherited retinal dystrophies (IRDs) such as retinitis pigmentosa or Leber congenital amaurosis generally manifest between early childhood and late adolescence, imposing profound long-term impacts as a result of vision impairment or blindness. IRDs are highly heterogeneous, with often overlapping symptoms among different IRDs, and achieving a definite diagnosis is challenging. This narrative review provides a clinical overview of the non-syndromic generalized photoreceptor dystrophies, particularly retinitis pigmentosa and Leber congenital amaurosis. The clinical investigations and genetic testing needed to establish a diagnosis are outlined, and current management approaches are discussed, focusing on the importance of the involvement of an interdisciplinary team from diagnosis and initial care to long-term follow-up and support. Results The effective management of IRDs requires a multidisciplinary, and ideally interdisciplinary, team of experts knowledgeable about IRDs, with experienced professionals from fields as diverse as ophthalmology, neuropsychiatry, psychology, neurology, genetics, orthoptics, developmental therapy, typhlology, occupational therapy, otolaryngology, and orientation and mobility specialties. Accurate clinical diagnosis encompasses a range of objective and subjective assessments as a prerequisite for the genetic testing essential in establishing an accurate diagnosis necessary for the effective management of IRDs, particularly in the era of gene therapies. Improvements in genome sequencing techniques, such as next-generation sequencing, have greatly facilitated the complex process of determining IRD-causing gene variants and establishing a molecular diagnosis. Genetic counseling is essential to help the individual and their family understand the condition, the potential risk for offspring, and the implications of a diagnosis on visual prognosis and treatment options. Psychological support for patients and caregivers is important at all stages of diagnosis, care, and rehabilitation and is an essential part of the multidisciplinary approach to managing IRDs. Effective communication throughout is essential, and the patient and caregivers’ needs and expectations must be acknowledged and discussed. Conclusion As IRDs can present at an early age, clinicians need to be aware of the clinical signs suggesting visual impairment and follow up with multidisciplinary support for timely diagnoses to facilitate appropriate therapeutic or rehabilitation intervention to minimize vision loss.

Published

2023

7. Label-free liquid biopsy through the identification of tumor cells by machine learning-powered tomographic phase imaging flow cytometry

Author

Daniele Pirone, Annalaura Montella, Daniele G. Sirico, Martina Mugnano, Massimiliano M. Villone, Vittorio Bianco, Lisa Miccio, Anna Maria Porcelli, Ivana Kurelac, Mario Capasso, Achille Iolascon, Pier Luca Maffettone, Pasquale Memmolo, and Pietro Ferraro

Subjects

Medicine, Science

Abstract

Abstract Image-based identification of circulating tumor cells in microfluidic cytometry condition is one of the most challenging perspectives in the Liquid Biopsy scenario. Here we show a machine learning-powered tomographic phase imaging flow cytometry system capable to provide high-throughput 3D phase-contrast tomograms of each single cell. In fact, we show that discrimination of tumor cells against white blood cells is potentially achievable with the aid of artificial intelligence in a label-free flow-cyto-tomography method. We propose a hierarchical machine learning decision-maker, working on a set of features calculated from the 3D tomograms of the cells’ refractive index. We prove that 3D morphological features are adequately distinctive to identify tumor cells versus the white blood cell background in the first stage and, moreover, in recognizing the tumor type at the second decision step. Proof-of-concept experiments are shown, in which two different tumor cell lines, namely neuroblastoma cancer cells and ovarian cancer cells, are used against monocytes. The reported results allow claiming the identification of tumor cells with a success rate higher than 97% and with an accuracy over 97% in discriminating between the two cancer cell types, thus opening in a near future the route to a new Liquid Biopsy tool for detecting and classifying circulating tumor cells in blood by stain-free method.

Published

2023

8. Evaluation of the main regulators of systemic iron homeostasis in pyruvate kinase deficiency

Author

Anna Zaninoni, Roberta Marra, Elisa Fermo, Dario Consonni, Immacolata Andolfo, Anna Paola Marcello, Barbara Eleni Rosato, Cristina Vercellati, Wilma Barcellini, Achille Iolascon, Paola Bianchi, and Roberta Russo

Subjects

Medicine, Science

Abstract

Abstract Iron homeostasis and dyserythropoiesis are poorly investigated in pyruvate kinase deficiency (PKD), the most common glycolytic defect of erythrocytes. Herein, we studied the main regulators of iron balance and erythropoiesis, as soluble transferrin receptor (sTfR), hepcidin, erythroferrone (ERFE), and erythropoietin (EPO), in a cohort of 41 PKD patients, compared with 42 affected by congenital dyserythropoietic anemia type II (CDAII) and 50 with hereditary spherocytosis (HS). PKD patients showed intermediate values of hepcidin and ERFE between CDAII and HS, and clear negative correlations between log-transformed hepcidin and log-EPO (Person’s r correlation coefficient = − 0.34), log-hepcidin and log-ERFE (r = − 0.47), and log-hepcidin and sTfR (r = − 0.44). sTfR was significantly higher in PKD; EPO levels were similar in PKD and CDAII, both higher than in HS. Finally, genotype–phenotype correlation in PKD showed that more severe patients, carrying non-missense/non-missense genotypes, had lower hepcidin and increased ERFE, EPO, and sTFR compared with the others (missense/missense and missense/non-missense), suggesting a higher rate of ineffective erythropoiesis. We herein investigated the main regulators of systemic iron homeostasis in the largest cohort of PKD patients described so far, opening new perspectives on the molecular basis and therapeutic approaches of this disease.

Published

2023

9. Expanding the Phenotype of the CACNA1C-Associated Neurological Disorders in Children: Systematic Literature Review and Description of a Novel Mutation

Author

Lorenzo Cipriano, Raffaele Piscopo, Chiara Aiello, Antonio Novelli, Achille Iolascon, and Carmelo Piscopo

Subjects

Timothy syndrome, CACNA1C gene, intellectual disability, Pediatrics, RJ1-570

Abstract

Background: CACNA1C gene encodes the alpha 1 subunit of the CaV1.2 L-type Ca2+ channel. Pathogenic variants in this gene have been associated with cardiac rhythm disorders such as long QT syndrome, Brugada syndrome and Timothy syndrome. Recent evidence has suggested the possible association between CACNA1C mutations and neurologically-isolated (in absence of cardiac involvement) phenotypes in children, giving birth to a wider spectrum of CACNA1C-related clinical presentations. However, to date, little is known about the variety of both neurological and non-neurological signs/symptoms in the neurologically-predominant phenotypes. Methods and Results: We conducted a systematic review of neurologically-predominant presentations without cardiac conduction defects, associated with CACNA1C mutations. We also reported a novel de novo missense pathogenic variant in the CACNA1C gene of a children patient presenting with constructional, dressing and oro-buccal apraxia associated with behavioral abnormalities, mild intellectual disability, dental anomalies, gingival hyperplasia and mild musculoskeletal defects, without cardiac conduction defects. Conclusions: The present study highlights the importance of considering the investigation of the CACNA1C gene in children’s neurological isolated syndromes, and expands the phenotype of the CACNA1C related conditions. In addition, the present study highlights that, even in absence of cardiac conduction defects, nuanced clinical manifestations of the Timothy syndrome (e.g., dental and gingival defects) could be found. These findings suggest the high variable expressivity of the CACNA1C gene and remark that the absence of cardiac involvement should not mislead the diagnosis of a CACNA1C related disorder.

Published

2024

10. Nrf2 Plays a Key Role in Erythropoiesis during Aging

Author

Serge Cedrick Toya Mbiandjeu, Angela Siciliano, Alessandro Mattè, Enrica Federti, Massimiliano Perduca, Davide Melisi, Immacolata Andolfo, Angela Amoresano, Achille Iolascon, Maria Teresa Valenti, Francesco Turrini, Michele Bovi, Arianna Pisani, Antonio Recchiuti, Domenico Mattoscio, Veronica Riccardi, Luca Dalle Carbonare, Carlo Brugnara, Narla Mohandas, and Lucia De Franceschi

Subjects

oxidation, astaxanthin, nanoparticles, PLGA, red cells, UPR system, Therapeutics. Pharmacology, RM1-950

Abstract

Aging is characterized by increased oxidation and reduced efficiency of cytoprotective mechanisms. Nuclear factor erythroid-2-related factor (Nrf2) is a key transcription factor, controlling the expression of multiple antioxidant proteins. Here, we show that Nrf2−/− mice displayed an age-dependent anemia, due to the combined contributions of reduced red cell lifespan and ineffective erythropoiesis, suggesting a role of Nrf2 in erythroid biology during aging. Mechanistically, we found that the expression of antioxidants during aging is mediated by activation of Nrf2 function by peroxiredoxin-2. The absence of Nrf2 resulted in persistent oxidation and overactivation of adaptive systems such as the unfolded protein response (UPR) system and autophagy in Nrf2−/− mouse erythroblasts. As Nrf2 is involved in the expression of autophagy-related proteins such as autophagy-related protein (Atg) 4-5 and p62, we found impairment of late phase of autophagy in Nrf2−/− mouse erythroblasts. The overactivation of the UPR system and impaired autophagy drove apoptosis of Nrf2−/− mouse erythroblasts via caspase-3 activation. As a proof of concept for the role of oxidation, we treated Nrf2−/− mice with astaxanthin, an antioxidant, in the form of poly (lactic-co-glycolic acid) (PLGA)-loaded nanoparticles (ATS-NPs) to improve its bioavailability. ATS-NPs ameliorated the age-dependent anemia and decreased ineffective erythropoiesis in Nrf2−/− mice. In summary, we propose that Nrf2 plays a key role in limiting age-related oxidation, ensuring erythroid maturation and growth during aging.

Published

2024

11. Noncoding Regulatory Mutations as a Driving Event for the Oncogenic Core Regulatory Circuitries of Neuroblastoma

Author

Vincenzo Aievola, Vito Alessandro Lasorsa, Annalaura Montella, Ferdinando Bonfiglio, Marianna Avitabile, Teresa Maiorino, Matilde Tirelli, Giuseppe D’Alterio, Matthias Fischer, Frank Westermann, Achille Iolascon, and Mario Capasso

Subjects

neuroblastoma, genomics, somatic mutations, next-generation sequencing, General Works

Abstract

Neuroblastoma (NB) is a pediatric tumor composed of adrenergic (ADRN) and mesenchymal-like (MES) cells which derive from the dysregulation of normal cell differentiation imposed by NB Core Regulatory Circuitries (CRCs) [...]

Published

2024

12. Post-GWAS Functional Analysis of the 11p11.2 Risk Locus Identifies HSD17B12 as a Neuroblastoma Susceptibility Gene Involved in Lipid Metabolism

Author

Teresa Maiorino, Marianna Avitabile, Vito Alessandro Lasorsa, Annalaura Montella, Sueva Cantalupo, Matilde Tirelli, Martina Morini, Alessandra Eva, Marianna Caterino, Margherita Ruoppolo, John M. Maris, Sharon J. Diskin, Achille Iolascon, and Mario Capasso

Subjects

genome-wide screening/GWAS, neuroblastoma, genetic predisposition, functional genomics, lipid metabolism, General Works

Abstract

Genome-wide association studies (GWASs) have contributed to the study of neuroblastoma (NB) genetics by identifying common risk variants that activate cancer-related processes associated with NB susceptibility [...]

Published

2024

13. Mitapivat reprograms the RBC metabolome and improves anemia in a mouse model of hereditary spherocytosis

Author

Alessandro Matte, Anand B. Wilson, Federica Gevi, Enrica Federti, Antonio Recchiuti, Giulia Ferri, Anna Maria Brunati, Mario Angelo Pagano, Roberta Russo, Christophe Leboeuf, Anne Janin, Anna Maria Timperio, Achille Iolascon, Elisa Gremese, Lenny Dang, Narla Mohandas, Carlo Brugnara, and Lucia De Franceschi

Subjects

Hematology, Therapeutics, Medicine

Abstract

Hereditary spherocytosis (HS) is the most common, nonimmune, hereditary, chronic hemolytic anemia after hemoglobinopathies. The genetic defects in membrane function causing HS lead to perturbation of the RBC metabolome, with altered glycolysis. In mice genetically lacking protein 4.2 (4.2–/–; Epb42), a murine model of HS, we showed increased expression of pyruvate kinase (PK) isoforms in whole and fractioned RBCs in conjunction with abnormalities in the glycolytic pathway and in the glutathione (GSH) system. Mitapivat, a PK activator, metabolically reprogrammed 4.2–/– mouse RBCs with amelioration of glycolysis and the GSH cycle. This resulted in improved osmotic fragility, reduced phosphatidylserine positivity, amelioration of RBC cation content, reduction of Na/K/Cl cotransport and Na/H-exchange overactivation, and decrease in erythroid vesicles release in vitro. Mitapivat treatment significantly decreased erythrophagocytosis and beneficially affected iron homeostasis. In mild-to-moderate HS, the beneficial effect of splenectomy is still controversial. Here, we showed that splenectomy improves anemia in 4.2–/– mice and that mitapivat is noninferior to splenectomy. An additional benefit of mitapivat treatment was lower expression of markers of inflammatory vasculopathy in 4.2–/– mice with or without splenectomy, indicating a multisystemic action of mitapivat. These findings support the notion that mitapivat treatment should be considered for symptomatic HS.

Published

2023

14. Phenotyping neuroblastoma cells through intelligent scrutiny of stain-free biomarkers in holographic flow cytometry

Author

Daniele Pirone, Annalaura Montella, Daniele Sirico, Martina Mugnano, Danila Del Giudice, Ivana Kurelac, Matilde Tirelli, Achille Iolascon, Vittorio Bianco, Pasquale Memmolo, Mario Capasso, Lisa Miccio, and Pietro Ferraro

Subjects

Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

To efficiently tackle certain tumor types, finding new biomarkers for rapid and complete phenotyping of cancer cells is highly demanded. This is especially the case for the most common pediatric solid tumor of the sympathetic nervous system, namely, neuroblastoma (NB). Liquid biopsy is in principle a very promising tool for this purpose, but usually enrichment and isolation of circulating tumor cells in such patients remain difficult due to the unavailability of universal NB cell-specific surface markers. Here, we show that rapid screening and phenotyping of NB cells through stain-free biomarkers supported by artificial intelligence is a viable route for liquid biopsy. We demonstrate the concept through a flow cytometry based on label-free holographic quantitative phase-contrast microscopy empowered by machine learning. In detail, we exploit a hierarchical decision scheme where at first level NB cells are classified from monocytes with 97.9% accuracy. Then we demonstrate that different phenotypes are discriminated within NB class. Indeed, for each cell classified as NB its belonging to one of four NB sub-populations (i.e., CHP212, SKNBE2, SHSY5Y, and SKNSH) is evaluated thus achieving accuracy in the range 73.6%–89.1%. The achieved results solve the realistic problem related to the identification circulating tumor cell, i.e., the possibility to recognize and detect tumor cells morphologically similar to blood cells, which is the core issue in liquid biopsy based on stain-free microscopy. The presented approach operates at lab-on-chip scale and emulates real-world scenarios, thus representing a future route for liquid biopsy by exploiting intelligent biomedical imaging.

Published

2023

15. P1458: MITAPIVAT AMELIORATES IN VITRO HUMAN Β THALASSEMIC ERYTHROID MATURATION INDEX AND MODULATES THE EXPRESSION OF THE CYTOPROTECTOR PEROXIREDOXIN-2.

Author

Alessandro Matte’, Richard Pozzetto Huot, Andrea Mattarei, Alberto Ongaro, Alice Passarini, Angela Siciliano, Roberta Russo, Achille Iolascon, Carlo Brugnara, and Lucia De Franceschi

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

16. P1472: COINHERITANCE OF PIEZO1 VARIANTS AND MULTI-LOCUS RED BLOOD CELL DEFECTS ACCOUNT FOR THE SYMPTOMATIC PHENOTYPE IN BETA-THALASSEMIA CARRIERS.

Author

Valeria Maria Pinto, Roberta Russo, Sabrina Quintino, Barbara Eleni Rosato, Roberta Marra, Federica Del Giudice, Massimo Mogni, Massimo Maffei, Achille Iolascon, Gian Luca Forni, and Immacolata Andolfo

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

17. P1470: IDENTIFICATION OF THE PRO20THR NOVEL VARIANT IN CDIN1 GENE ALLOWED EXPLORING THE BIOLOGICAL PROCESSES IMPAIRED IN CONGENITAL DYSERYTHROPOIETIC ANEMIA TYPE I

Author

Roberta Marra, Antonella Nostroso, Federica Maria Esposito, Barbara Eleni Rosato, Vanessa D’onofrio, Giuseppe D’alterio, Mario Capasso, Achille Iolascon, Immacolata Andolfo, and Roberta Russo

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

18. P1468: PIEZO1 GAIN-OF-FUNCTION VARIANTS ACCOUNT FOR STRESSED ERYTHROPOIESIS BY ALTERING APOPTOSIS, HYPOXIA CELL RESPONSE, AND GLYCOLYSIS

Author

Barbara Eleni Rosato, Vanessa D’onofrio, Antonella Nostroso, Roberta Marra, Federica Maria Esposito, Maddalena Raia, Giuseppe D’alterio, Mario Capasso, Achille Iolascon, Roberta Russo, and Immacolata Andolfo

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

19. One gene, two opposite phenotypes: a case report of hereditary anemia due to a loss-of-function variant in the EPAS1 gene

Author

Barbara Eleni Rosato, Roberta Marra, Federica Del Giudice, Antonella Nostroso, Simona Gobbi, Barbara Bruschi, Paola Coccia, Vittoria Monaco, Maria Monti, Achille Iolascon, Immacolata Andolfo, and Roberta Russo

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

20. In Humanized Sickle Cell Mice, Imatinib Protects Against Sickle Cell–Related Injury

Author

Enrica Federti, Alessandro Matte, Antonio Recchiuti, Francesca Garello, Alessandra Ghigo, Wassim El Nemer, Enzo Terreno, Angela Amoresano, Domenico Mattoscio, Franco Turrini, Christophe Lebouef, Anne Janin, Antonella Pantaleo, Roberta Russo, Mickael Marin, Iana Iatcencko, Veronica Riccardi, Angela Siciliano, Achille Iolascon, Carlo Brugnara, and Lucia De Franceschi

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Drug repurposing is a valuable strategy for rare diseases. Sickle cell disease (SCD) is a rare hereditary hemolytic anemia accompanied by acute and chronic painful episodes, most often in the context of vaso-occlusive crisis (VOC). Although progress in the knowledge of pathophysiology of SCD have allowed the development of new therapeutic options, a large fraction of patients still exhibits unmet therapeutic needs, with persistence of VOCs and chronic disease progression. Here, we show that imatinib, an oral tyrosine kinase inhibitor developed for the treatment of chronic myelogenous leukemia, acts as multimodal therapy targeting signal transduction pathways involved in the pathogenesis of both anemia and inflammatory vasculopathy of humanized murine model for SCD. In addition, imatinib inhibits the platelet-derived growth factor-B–dependent pathway, interfering with the profibrotic response to hypoxia/reperfusion injury, used to mimic acute VOCs. Our data indicate that imatinib might be considered as possible new therapeutic tool for chronic treatment of SCD.

Published

2023

21. FGFR1 is a potential therapeutic target in neuroblastoma

Author

Flora Cimmino, Annalaura Montella, Matilde Tirelli, Marianna Avitabile, Vito Alessandro Lasorsa, Feliciano Visconte, Sueva Cantalupo, Teresa Maiorino, Biagio De Angelis, Martina Morini, Aurora Castellano, Franco Locatelli, Mario Capasso, and Achille Iolascon

Subjects

FGFR1, Metastasis, Mutation, Neuroblastoma, Targeted therapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background FGFR1 regulates cell–cell adhesion and extracellular matrix architecture and acts as oncogene in several cancers. Potential cancer driver mutations of FGFR1 occur in neuroblastoma (NB), a neural crest-derived pediatric tumor arising in sympathetic nervous system, but so far they have not been studied experimentally. We investigated the driver-oncogene role of FGFR1 and the implication of N546K mutation in therapy-resistance in NB cells. Methods Public datasets were used to predict the correlation of FGFR1 expression with NB clinical outcomes. Whole genome sequencing data of 19 paired diagnostic and relapse NB samples were used to find somatic mutations. In NB cell lines, silencing by short hairpin RNA and transient overexpression of FGFR1 were performed to evaluate the effect of the identified mutation by cell growth, invasion and cologenicity assays. HEK293, SHSY5Y and SKNBE2 were selected to investigate subcellular wild-type and mutated protein localization. FGFR1 inhibitor (AZD4547), alone or in combination with PI3K inhibitor (GDC0941), was used to rescue malignant phenotypes induced by overexpression of FGFR1 wild-type and mutated protein. Results High FGFR1 expression correlated with low relapse-free survival in two independent NB gene expression datasets. In addition, we found the somatic mutation N546K, the most recurrent point mutation of FGFR1 in all cancers and already reported in NB, in one out of 19 matched primary and recurrent tumors. Loss of FGFR1 function attenuated invasion and cologenicity in NB cells, whereas FGFR1 overexpression enhanced oncogenicity. The overexpression of FGFR1N546K protein showed a higher nuclear localization compared to wild-type protein and increased cellular invasion and cologenicity. Moreover, N546K mutation caused the failure in response to treatment with FGFR1 inhibitor by activation of ERK, STAT3 and AKT pathways. The combination of FGFR1 and PI3K pathway inhibitors was effective in reducing the invasive and colonigenic ability of cells overexpressing FGFR1 mutated protein. Conclusions FGFR1 is an actionable driver oncogene in NB and a promising therapy may consist in targeting FGFR1 mutations in patients with therapy-resistant NB.

Published

2022

22. Single-cell transcriptomics of neuroblastoma identifies chemoresistance-associated genes and pathways

Author

Marianna Avitabile, Ferdinando Bonfiglio, Vincenzo Aievola, Sueva Cantalupo, Teresa Maiorino, Vito Alessandro Lasorsa, Cinzia Domenicotti, Barbara Marengo, Heger Zbyněk, Adam Vojtěch, Achille Iolascon, and Mario Capasso

Subjects

Drug resistance, Intra-tumor heterogenity (ITH), Neuroblastoma (NB), Prognostic biomarkers, Single cell transcriptomics, Biotechnology, TP248.13-248.65

Abstract

High-Risk neuroblastoma (NB) survival rate is still

Published

2022

23. Mitapivat, a pyruvate kinase activator, improves transfusion burden and reduces iron overload in β-thalassemic mice

Author

Alessandro Mattè, Penelope A. Kosinski, Enrica Federti, Lenny Dang, Antonio Recchiuti, Roberta Russo, Angela Siciliano, Veronica Riccardi, Anne Janin, Matteo Mucci, Christophe Leboeuf, Achille Iolascon, Carlo Brugnara, and Lucia De Franceschi

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

24. Duality of Nrf2 in iron-overload cardiomyopathy

Author

Enrica Federti, Francesca Vinchi, Iana Iatcenko, Alessandra Ghigo, Alessandro Matte, Serge Cedrick Mbiandjeu Toya, Angela Siciliano, Deborah Chiabrando, Emanuela Tolosano, Steven Zebulon Vance, Veronica Riccardi, Immacolata Andolfo, Manuela Iezzi, Alessia Lamolinara, Achille Iolascon, and Lucia De Franceschi

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Cardiomyopathy deeply affects quality of life and mortality of patients with b-thalassemia or with transfusion-dependent myelodysplastic syndromes. Recently, a link between Nrf2 activity and iron metabolism has been reported in liver ironoverload murine models. Here, we studied C57B6 mice as healthy control and nuclear erythroid factor-2 knockout (Nrf2-/-) male mice aged 4 and 12 months. Eleven-month-old wild-type and Nrf2-/- mice were fed with either standard diet or a diet containing 2.5% carbonyl-iron (iron overload [IO]) for 4 weeks. We show that Nrf2-/- mice develop an age-dependent cardiomyopathy, characterized by severe oxidation, degradation of SERCA2A and iron accumulation. This was associated with local hepcidin expression and increased serum non-transferrin-bound iron, which promotes maladaptive cardiac remodeling and interstitial fibrosis related to overactivation of the TGF-b pathway. When mice were exposed to IO diet, the absence of Nrf2 was paradoxically protective against further heart iron accumulation. Indeed, the combination of prolonged oxidation and the burst induced by IO diet resulted in activation of the unfolded protein response (UPR) system, which in turn promotes hepcidin expression independently from heart iron accumulation. In the heart of Hbbth3/+ mice, a model of b-thalassemia intermedia, despite the activation of Nrf2 pathway, we found severe protein oxidation, activation of UPR system and cardiac fibrosis independently from heart iron content. We describe the dual role of Nrf2 when aging is combined with IO and its novel interrelation with UPR system to ensure cell survival. We open a new perspective for early and intense treatment of cardiomyopathy in patients with b-thalassemia before the appearance of heart iron accumulation.

Published

2023

25. CFDP1 is a neuroblastoma susceptibility gene that regulates transcription factors of the noradrenergic cell identity

Author

Daniela Formicola, Vito Alessandro Lasorsa, Sueva Cantalupo, Alessandro Testori, Antonella Cardinale, Marianna Avitabile, Sharon Diskin, Achille Iolascon, and Mario Capasso

Subjects

GWAS, SNP, neuroblastoma, neural crest cells, coronary artery disease, pleiotropic variants, Genetics, QH426-470

Abstract

Summary: Pleiotropic genetic factors (e.g., DNA polymorphisms) may be involved in the initiation of neuroblastoma (NB) and coronary artery disease (CAD) given their common origin from defects in neural crest development. To discover novel NB susceptibility genes, we conducted a three-stage survey including a meta-analysis of NB and CAD genome-wide association data, prioritization of NB causal variants, and validation in an independent cohort of affected individuals–control subjects. The lead SNP, rs13337397 at the 16q23.1 locus, associated with both diseases in the meta-analysis and with NB in the validation study. All the SNPs in linkage disequilibrium with rs13337397 were annotated using the H3K27ac epigenetic marker of neural crest cells (NCC) and NB cell lines. Indeed, we identified the functional SNP rs13337017, mapping within an enhancer of NCCs and NB cell lines and showing long-range interactions with CFDP1 by Hi-C analysis. Luciferase assays indicated that the risk allele of rs13337017 increased CFDP1 expression in NB cell lines. Of note, CFDP1 high expression associated with unfavorable prognostic markers in an analysis including 498 NB transcriptomes. Moreover, depletion of CFDP1 markedly decreased viability and migration and increased apoptotic rates in NB cell lines. Finally, transcriptome and qPCR analyses revealed that the depletion of CFDP1 may affect noradrenergic neuron differentiation by downregulating master regulators of sympathetic noradrenergic identity, including PHOX2B, HAND2, and GATA3. Our data strongly suggest that CFDP1 acts as oncogene in NB. In addition, we provide evidence that genetic predisposition to NB can be mediated by the alteration of noradrenergic lineage-specific gene expression.

Published

2023

26. Clinical exome-based panel testing for medically actionable secondary findings in a cohort of 383 Italian participants

Author

Stefania Martone, Autilia Tommasina Buonagura, Roberta Marra, Barbara Eleni Rosato, Federica Del Giudice, Ferdinando Bonfiglio, Mario Capasso, Achille Iolascon, Immacolata Andolfo, and Roberta Russo

Subjects

secondary findings, clinical exome, genetic testing, ACMG actionable genes, NGS testing, Genetics, QH426-470

Abstract

Background: Next-generation sequencing-based genetic testing represents a great opportunity to identify hereditary predispositions to specific pathological conditions and to promptly implement health surveillance or therapeutic protocols in case of disease. The term secondary finding refers to the active search for causative variants in genes associated with medically actionable conditions.Methods: We evaluated 59 medically actionable ACMG genes using a targeted in silico analysis of clinical exome sequencing performed in 383 consecutive individuals referred to our Medical Genetics Unit. A three-tier classification system of SFs for assessing their clinical impact and supporting a decision-making process for reporting was established.Results: We identified SFs with high/moderate evidence of pathogenicity in 7.0% (27/383) of analyzed subjects. Among these, 12/27 (44.4%) were carriers of a high-risk recessive disease allele. The most represented disease domains were cancer predisposition (33.3%), cardiac disorders (16.7%), and familial hypercholesterolemia (12.5%).Conclusion: Although still debated, ensuring during NGS-based genetic testing an opportunistic screening might be valuable for personal and familial early management and surveillance of medically actionable disorders, the individual’s reproductive choices, and the prevalence assessment of underestimated hereditary genetic diseases.

Published

2022

27. The Use of Next-generation Sequencing in the Diagnosis of Rare Inherited Anaemias: A Joint BSH/EHA Good Practice Paper

Author

Noémi B. A. Roy, Lydie Da Costa, Roberta Russo, Paola Bianchi, Maria del Mar Mañú-Pereira, Elisa Fermo, Immacolata Andolfo, Barnaby Clark, Melanie Proven, Mayka Sanchez, Richard van Wijk, Bert van der Zwaag, Mark Layton, David Rees, Achille Iolascon, and on behalf of the British Society for Haematology and the European Hematology Association

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2022

28. Therapeutic targeting of Lyn kinase to treat chorea-acanthocytosis

Author

Kevin Peikert, Enrica Federti, Alessandro Matte, Gabriela Constantin, Enrica Caterina Pietronigro, Paolo Francesco Fabene, Paola Defilippi, Emilia Turco, Federico Del Gallo, Pietro Pucci, Angela Amoresano, Anna Illiano, Flora Cozzolino, Maria Monti, Francesca Garello, Enzo Terreno, Seth Leo Alper, Hannes Glaß, Lisann Pelzl, Katja Akgün, Tjalf Ziemssen, Rainer Ordemann, Florian Lang, Anna Maria Brunati, Elena Tibaldi, Immacolata Andolfo, Achille Iolascon, Giuseppe Bertini, Mario Buffelli, Carlo Zancanaro, Erika Lorenzetto, Angela Siciliano, Massimiliano Bonifacio, Adrian Danek, Ruth Helen Walker, Andreas Hermann, and Lucia De Franceschi

Subjects

Chorein, Lyn, Cell signaling, Basal ganglia, Neurodegeneration, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Chorea-Acanthocytosis (ChAc) is a devastating, little understood, and currently untreatable neurodegenerative disease caused by VPS13A mutations. Based on our recent demonstration that accumulation of activated Lyn tyrosine kinase is a key pathophysiological event in human ChAc cells, we took advantage of Vps13a −/− mice, which phenocopied human ChAc. Using proteomic approach, we found accumulation of active Lyn, γ-synuclein and phospho-tau proteins in Vps13a −/− basal ganglia secondary to impaired autophagy leading to neuroinflammation. Mice double knockout Vps13a −/− Lyn−/− showed normalization of red cell morphology and improvement of autophagy in basal ganglia. We then in vivo tested pharmacologic inhibitors of Lyn: dasatinib and nilotinib. Dasatinib failed to cross the mouse brain blood barrier (BBB), but the more specific Lyn kinase inhibitor nilotinib, crosses the BBB. Nilotinib ameliorates both Vps13a −/− hematological and neurological phenotypes, improving autophagy and preventing neuroinflammation. Our data support the proposal to repurpose nilotinib as new therapeutic option for ChAc patients.

Published

2021

29. Evidence of protective effects of recombinant ADAMTS13 in a humanized model of sickle cell disease

Author

Paolo Rossato, Enrica Federti, Alessandro Matte, Helmut Glantschnig, Fabio Canneva, Maria Schuster, Sogue Coulibaly, Gerald Schrenk, Dirk Voelkel, Michael Dockal, Barbara Plaimauer, Immacolata Andolfo, Achille Iolascon, Hanspeter Rottensteiner, Herbert Gritsch, Friedrich Scheiflinger, Werner Hoellriegl, and Lucia De Franceschi

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Sickle cell disease (SCD) is an inherited red blood cell disorder that occurs worldwide. Acute vaso-occlusive crisis is the main cause of hospitalization in patients with SCD. There is growing evidence that inflammatory vasculopathy plays a key role in both acute and chronic SCD-related clinical manifestations. In a humanized mouse model of SCD, we found an increase of von Willebrand factor activity and a reduction in the ratio of a disintegrin and metalloproteinase with thrombospondin type 1 motif, number 13 (ADAMTS13) to von Willebrand factor activity similar to that observed in the human counterpart. Recombinant ADAMTS13 was administered to humanized SCD mice before they were subjected to hypoxia/reoxygenation (H/R) stress as a model of vaso-occlusive crisis. In SCD mice, recombinant ADAMTS13 reduced H/R-induced hemolysis and systemic and local inflammation in lungs and kidneys. It also diminished H/R-induced worsening of inflammatory vasculopathy, reducing local nitric oxidase synthase expression. Collectively, our data provide for the firsttime evidence that pharmacological treatment with recombinant ADAMTS13 (TAK-755) diminished H/R-induced sickle cell-related organ damage. Thus, recombinant ADAMTS13 might be considered as a potential effective disease-modifying treatment option for sickle cell-related acute events.

Published

2022

30. Hereditary anemia caused by multilocus inheritance of PIEZO1, SLC4A1 and ABCB6 mutations: a diagnostic and therapeutic challenge

Author

Barbara Eleni Rosato, Seth L. Alper, Giovanna Tomaiuolo, Roberta Russo, Achille Iolascon, and Immacolata Andolfo

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2022

31. A novel PIEZO1 mutation in a patient with dehydrated hereditary stomatocytosis: a case report and a brief review of literature

Author

Daniele Zama, Giulia Giulietti, Edoardo Muratore, Immacolata Andolfo, Roberta Russo, Achille Iolascon, and Andrea Pession

Subjects

Hemolytic anemia, Dehydrated hereditary stomatocytosis, Mean corpuscular hemoglobin concentration (MCHC), Genetic disease, Next generation sequencing (NGS), Pediatrics, RJ1-570

Abstract

Abstract Background Dehydrated hereditary stomatocytosis (DHS) or hereditary xerocytosis is a rare, autosomal dominant hemolytic anemia characterized by macrocytosis, presence of stomatocytes and dehydration of red blood cells (RBCs). The dehydration is caused by a defect in cellular cation content. The most frequent expression of the pathology is hemolytic well-compensated anemia with high reticulocyte count, a tendency to macrocytosis, increased mean corpuscular hemoglobin concentration (MCHC) and mild jaundice. We here describe a new mutation of PIEZO1 gene, the most frequent mutated gene in DHS, in a family affected by hereditary hemolytic anemia. Case presentation We describe the case of a 12-years-old girl with well-compensated chronic hemolysis, increased MCHC and a father who had the same hematological characteristics. After excluding secondary causes of chronic hemolysis and enzymatic defects of the RBCs, microscopic observation of the peripheral blood smear, tests of RBC lysis, ektacytometry, SDS-PAGE and in last instance genetic analysis has been performed. This complex diagnostic workup identified a new variant in the PIEZO1 gene, never described in literature, causative of DHS. This pathogenetic variant was also detected in the father. Conclusions This case report highlights the importance of a correct and exhaustive diagnostic-workup in patients with clinical suspicious for hemolytic anemia in order to make a differential diagnosis. This is relevant for the management of these patients because splenectomy is contraindicated in DHS due to high thrombotic risk.

Published

2020

32. Novel PKLR missense mutation (A300P) causing pyruvate kinase deficiency in an Omani Kindred—PK deficiency masquerading as congenital dyserythropoietic anemia

Author

Naglaa Fawaz, Ismail Beshlawi, Alauldeen Alqasim, Mathew Zachariah, Roberta Russo, Immacolata Andolfo, Antonella Gambale, Anil Pathare, and Achille Iolascon

Subjects

congenital dyserythropoietic anemia, hereditary anemia, PKLR missense mutation (A300P), pyruvate kinase, targeted next‐generation sequencing, Medicine, Medicine (General), R5-920

Abstract

Abstract We report herein a child with transfusion‐dependent chronic anemia, the cause of which was difficult to establish because of his transfusion dependency. The clinical and laboratory features suggested a chronic nonspherocytic hemolytic anemia (CNSHA) with bone marrow features suggestive of congenital dyserythropoietic anemia (CDA). DNA studies, however, revealed the underlying condition to be due to a novel mutation in the PKLR gene responsible for pyruvate kinase deficiency (PKD). Molecular investigations by a targeted next‐generation sequencing (t‐NGS) using a custom panel of 71 genes involved in the red blood cell (RBC) disorders revealed that the patient was homozygous for a novel missense mutation c.898G>C, p.Ala300Pro, whereas both his parents were heterozygous for the same mutation.

Published

2022

33. Editorial: Genetics and Genomics of Red Blood Cells

Author

Achille Iolascon, Roberta Russo, and Immacolata Andolfo

Subjects

hereditary anemias, next-generation sequencing, transcriptomics, genetic diagnosis, genetic variants, transgenic animal model, Physiology, QP1-981

Published

2022

34. The frameshift Leu220Phefs*2 variant in KRIT1 accounts for early acute bleeding in patients affected by cerebral cavernous malformation

Author

Autilia Tommasina Buonagura, Teresa Somma, Francesca Vitulli, Giuseppina Vitiello, Immacolata Andolfo, Felice Esposito, Roberta Russo, Achille Iolascon, and Paolo Cappabianca

Subjects

Cerebral cavernous malformation, KRIT1, Genetic counseling, Genetic testing, Next-generation sequencing, Surgery, RD1-811, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background and Objectives: Cerebral cavernous malformation (CCM) is a neurovascular disease characterized by abnormally expanded and tortuous microvessels with increased predisposition to thrombosis and focal hemorrhage. Its incidence is estimated to range between 0.4% and 0.8%. Sporadic and familial forms of CCM are described. The first one is characterized by single lesion, while the familial form is defined by multiple malformations. In this scenario, more than 300 mutations affecting the CCM genes have been described to date, but the exact pathogenic mechanism is yet unknown. Most of the causative variants of KRIT1 gene are frameshift but there are many missense and nonsense variants and they have been found some splicing mutations. The diagnosis is based on magnetic resonance images (MRI) and genetic testing. Case report: A 15-year-old male presented with a two weeks duration worsening headache accompanied by vomiting and three months behavioral changes. Computer tomography revealed a large right temporal lesion with other smaller in left parietal and left cerebellar region. At the time of diagnosis, the two siblings of the proband were asymptomatic. Nevertheless, four months later, the 7-years-old brother was admitted to the emergency room for balance deficit, diplopia, right-hitting nystagmus and stiff neck with deviation of the head. A cerebral CT revealed polylobate hyperdense mass of the middle cerebral pedicle associated to acute bleeding. A genetic testing for hereditary cavernous brain malformation was carried out. Results: The molecular analysis identified a 2-bp duplication (NM_194456.1:c.658_659dupTT) as heterozygous within the exon 8 of CCM1/KRIT1 gene (Fig. 1C). This duplication leads to a frameshift variant, resulting in a premature stop codon (p.Leu220Phefs*2). Discussion: The clinical data collected confirm the variable phenotypic expression of CCM and suggest a greater severity of symptoms in the youngest patients.

Published

2021

35. Summary of Joint European Hematology Association (EHA) and EuroBloodNet Recommendations on Diagnosis and Treatment of Methemoglobinemia

Author

Achille Iolascon, Immacolata Andolfo, Roberta Russo, Wilma Barcellini, Elisa Fermo, Gergely Toldi, Stefano Ghirardello, Davis Rees, Richard Van Wijk, Antonis Kattamis, Patrick G. Gallagher, Noemi Roy, Ali Taher, Razan Mohty, Andreas Kulozik, Lucia De Franceschi, Antonella Gambale, Mariane De Montalembert, Gian Luca Forni, Cornelis L. Harteveld, Josef Prchal, Paola Bianchi, and on behalf of SWG of Red Cell and Iron of EHA and EuroBloodNet

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2021

36. THE APPROACH AND DIAGNOSIS OF COOMBS NEGATIVE HEMOLYTIC ANEMIAS

Author

Achille Iolascon

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2021

37. The EHA Research Roadmap: Anemias

Author

Achille Iolascon, Stefano Rivella, Nicholas P. Anagnou, Clara Camaschella, Dorine Swinkels, Martina U. Muckenthaler, Graça Porto, Wilma Barcellini, Immacolata Andolfo, Antonio M. Risitano, Antonis Kattamis, Maria Domenica Cappellini, Ali T. Taher, Lucia De Franceschi, David Rees, Roberta Russo, Hannah Tamary, Reinhard Stauder, and Domenico Girelli

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2021

38. HIF-1 transcription activity: HIF1A driven response in normoxia and in hypoxia

Author

Flora Cimmino, Marianna Avitabile, Vito Alessandro Lasorsa, Annalaura Montella, Lucia Pezone, Sueva Cantalupo, Feliciano Visconte, Maria Valeria Corrias, Achille Iolascon, and Mario Capasso

Subjects

Hypoxia inducible factor HIF1A, RNA sequencing, DNA methylation, Neuroblastoma, Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background HIF1A (Hypoxia-Inducible-Factor 1A) expression in solid tumors is relevant to establish resistance to therapeutic approaches. The use of compounds direct against hypoxia signaling and HIF1A does not show clinical efficiency because of changeable oxygen concentrations in solid tumor areas. The identification of HIF1A targets expressed in both normoxia and hypoxia and of HIF1A/hypoxia signatures might meliorate the prognostic stratification and therapeutic successes in patients with high-risk solid tumors. Methods In this study, we conducted a combined analysis of RNA expression and DNA methylation of neuroblastoma cells silenced or unsilenced for HIF1A expression, grown in normoxia and hypoxia conditions. Results The analysis of pathways highlights HIF-1 (heterodimeric transcription factor 1) activity in normoxia in metabolic process and HIF-1 activity in hypoxia in neuronal differentiation process. HIF1A driven transcriptional response in hypoxia depends on epigenetic control at DNA methylation status of gene regulatory regions. Furthermore, low oxygen levels generate HIF1A-dependent or HIF1A-independent signatures, able to stratify patients according to risk categories. Conclusions These findings may help to understand the molecular mechanisms by which low oxygen levels reshape gene signatures and provide new direction for hypoxia targeting in solid tumor.

Published

2019

39. Selecting β-thalassemia Patients for Gene Therapy: A Decision-making Algorithm

Author

Donatella Baronciani, Maddalena Casale, Lucia De Franceschi, Giovanna Graziadei, Filomena Longo, Raffaella Origa, Paolo Rigano, Valeria Pinto, Monia Marchetti, Antonia Gigante, Achille Iolascon, (on behalf of, & Chair of, the EHA Scientific Working Group on Red Cells and Iron), and Gian Luca Forni

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

This expert opinion originally developed by a panel of the Italian Society of Thalassemias and Hemoglobinopathies (SITE), reviewed and adopted by the European Hematology Association (EHA) through the EHA Scientific Working Group on Red Cells and Iron, has been developed as priority decision-making algorithm on evidence and consensus with the aim to identify which patients with transfusion-dependent beta-thalassemia (TDT) could benefit from a gene therapy (GT) approach. Even if the wide utilized and high successful allogeneic hematopoietic stem-cell transplantation provides the possibility to cure several patients a new scenario has been opened by GT. Therefore, it is important to establish the patients setting for whom it is priority indicated, particularly in the early phase of the diffuse use outside experimental trials conducted in high selected centers. Moreover, actual price, limited availability, and resources disposal constitute a further indication to a rational and progressive approach to this innovative treatment. To elaborate this algorithm, the experience with allogeneic transplantation has been used has a predictive model. In this large worldwide experience, it has been clearly demonstrated that key for the optimal transplant outcome is optimal transfusion and chelation therapy in the years before the procedure and consequently optimal patient’s clinical condition. In the document, different clinical scenarios have been considered and analyzed for the possible impact on treatment outcome. According to the European Medicine Agency (EMA) for the GT product, this expert opinion must be considered as a dynamic, updatable, priority-based indications for physicians taking care of TDT patients.

Published

2021

40. Common variants at 21q22.3 locus influence MX1 and TMPRSS2 gene expression and susceptibility to severe COVID-19

Author

Immacolata Andolfo, Roberta Russo, Vito Alessandro Lasorsa, Sueva Cantalupo, Barbara Eleni Rosato, Ferdinando Bonfiglio, Giulia Frisso, Pasquale Abete, Gian Marco Cassese, Giuseppe Servillo, Gabriella Esposito, Ivan Gentile, Carmelo Piscopo, Romolo Villani, Giuseppe Fiorentino, Pellegrino Cerino, Carlo Buonerba, Biancamaria Pierri, Massimo Zollo, Achille Iolascon, and Mario Capasso

Subjects

Genetics, Genomics, Science

Abstract

Summary: The established risk factors of coronavirus disease 2019 (COVID-19) are advanced age, male sex, and comorbidities, but they do not fully explain the wide spectrum of disease manifestations. Genetic factors implicated in the host antiviral response provide for novel insights into its pathogenesis.We performed an in-depth genetic analysis of chromosome 21 exploiting the genome-wide association study data, including 6,406 individuals hospitalized for COVID-19 and 902,088 controls with European genetic ancestry from the COVID-19 Host Genetics Initiative. We found that five single nucleotide polymorphisms within TMPRSS2 and near MX1 gene show associations with severe COVID-19. The minor alleles of the five single nucleotide polymorphisms (SNPs) correlated with a reduced risk of developing severe COVID-19 and high level of MX1 expression in blood.Our findings demonstrate that host genetic factors can influence the different clinical presentations of COVID-19 and that MX1 could be a potential therapeutic target.

Published

2021

41. RB1CC1 duplication and aberrant overexpression in a patient with schizophrenia: further phenotype delineation and proposal of a pathogenetic mechanism

Author

Edoardo Errichiello, Roberto Giorda, Antonella Gambale, Achille Iolascon, Orsetta Zuffardi, and Sabrina Giglio

Subjects

autophagy, copy number variations (CNVs), RB1CC1, schizophrenia (SCZ), suicidality, Genetics, QH426-470

Abstract

Abstract Background Copy number variants in coding and noncoding genomic regions have been implicated as risk factor for schizophrenia (SCZ). Rare duplications of the RB1CC1 gene were found enriched in SCZ patients. Considering that the effect of such duplications on RB1CC1 expression has never been evaluated and partial gene duplications of RB1CC1 have also been reported in SCZ patients, it is unclear whether the pathogenesis is mediated by haploinsufficiency rather than genuine overexpression of the gene. Methods and Results We studied a patient with schizophrenia, suicidality, and obesity, who carried a de novo RB1CC1 complete duplication, as assessed by high‐resolution array‐CGH. Molecular breakpoint cloning allowed to identify nonhomologous end joining (NHEJ) as driving mechanism in this rearrangement. On the contrary, trio‐based whole‐exome sequencing excluded other potential causative variants related to the phenotype. Functional assays showed significant overexpression of RB1CC1 in the peripheral blood lymphocytes of the proband compared to control subjects, suggesting overdosage as leading mechanism in SCZ pathophysiology. Conclusion We hypothesized a pathogenetic model that might explain the correlation between RB1CC1 overexpression and schizophrenia by altering different cell signaling pathways, including autophagy, a promising therapeutic target for schizophrenic patients.

Published

2021

42. A Targeted Gene Panel for Circulating Tumor DNA Sequencing in Neuroblastoma

Author

Flora Cimmino, Vito Alessandro Lasorsa, Simona Vetrella, Achille Iolascon, and Mario Capasso

Subjects

genetic mutation, bioinformactics analysis, next generation sequencing, neuroblastoma, liquid biopsy and circulating tumor DNA, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundLiquid biopsies do not reflect the complete mutation profile of the tumor but have the potential to identify actionable mutations when tumor biopsies are not available as well as variants with low allele frequency. Most retrospective studies conducted in small cohorts of pediatric cancers have illustrated that the technology yield substantial potential in neuroblastoma.AimThe molecular landscape of neuroblastoma harbors potentially actionable genomic alterations. We aimed to study the utility of liquid biopsy to characterize the mutational landscape of primary neuroblastoma using a custom gene panel for ctDNA targeted sequencing.MethodsTargeted next-generation sequencing (NGS) was performed on ctDNA of 11 patients with primary neuroblastoma stage 4. To avoid the detection of false variants, we used UMIs (unique molecular identifiers) for the library construction, increased the sequencing depth and developed ad hoc bioinformatic analyses including the hard filtering of the variant calls.ResultsWe identified 9/11 (81.8%) patients who carry at least one pathogenic variation. The most frequently mutated genes were KMT2C (five cases), NOTCH1/2 (four cases), CREBBP (three cases), ARID1A/B (three cases), ALK (two cases), FGFR1 (two cases), FAT4 (two cases) and CARD11 (two cases).ConclusionsWe developed a targeted NGS approach to identify tumor-specific alterations in ctDNA of neuroblastoma patients. Our results show the reliability of our approach to generate genomic information which can be integrated with clinical and pathological data at diagnosis.

Published

2020

43. Genetics and Genomics Approaches for Diagnosis and Research Into Hereditary Anemias

Author

Roberta Russo, Roberta Marra, Barbara Eleni Rosato, Achille Iolascon, and Immacolata Andolfo

Subjects

hereditary anemias, next generation sequencing, differential diagnosis, chromatin 3D architecture, genetic test, Physiology, QP1-981

Abstract

The hereditary anemias are a relatively heterogeneous set of disorders that can show wide clinical and genetic heterogeneity, which often hampers correct clinical diagnosis. The classical diagnostic workflow for these conditions generally used to start with analysis of the family and personal histories, followed by biochemical and morphological evaluations, and ending with genetic testing. However, the diagnostic framework has changed more recently, and genetic testing is now a suitable approach for differential diagnosis of these patients. There are several approaches to this genetic testing, the choice of which depends on phenotyping, genetic heterogeneity, and gene size. For patients who show complete phenotyping, single-gene testing remains recommended. However, genetic analysis now includes next-generation sequencing, which is generally based on custom-designed targeting panels and whole-exome sequencing. The use of next-generation sequencing also allows the identification of new causative genes, and of polygenic conditions and genetic factors that modify disease severity of hereditary anemias. In the research field, whole-genome sequencing is useful for the identification of non-coding causative mutations, which might account for the disruption of transcriptional factor occupancy sites and cis-regulatory elements. Moreover, advances in high-throughput sequencing techniques have now resulted in the identification of genome-wide profiling of the chromatin structures known as the topologically associating domains. These represent a recurrent disease mechanism that exposes genes to inappropriate regulatory elements, causing errors in gene expression. This review focuses on the challenges of diagnosis and research into hereditary anemias, with indications of both the advantages and disadvantages. Finally, we consider the future perspectives for the use of next-generation sequencing technologies in this era of precision medicine.

Published

2020

44. Induction of natural killer antibody-dependent cell cytotoxicity and of clinical activity of cetuximab plus avelumab in non-small cell lung cancer

Author

Fortunato Ciardiello, Carminia Maria Della Corte, Floriana Morgillo, Vincenzo Sforza, Raimondo Di Liello, Vincenza Ciaramella, Giusi Barra, Francesca Sparano, Giuseppe Viscardi, Maria Lucia Iacovino, Morena Fasano, Vincenzo Famiglietti, Evaristo Maiello, Fernando Paragliola, Flora Cimmino, Mario Capasso, Achille Iolascon, and Alessandro Morabito

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background Antibody-dependent cell-mediated cytotoxicity (ADCC) may mediate antitumour activity of IgG1-isotype monoclonal antibody (mAb), suggesting as potential treatment combination of IgG1-mAbs, anti-epidermal growth factor receptor cetuximab and anti-programmed death-ligand-1 avelumab.Methods We evaluated ADCC induction in lung cancer cells by lactate dehydrogenase (LDH) release assay. Antitumour activity and safety of cetuximab plus avelumab were explored in a single-arm proof-of-concept study in pre-treated non-small cell lung cancer (NSCLC) patients (pt) (Cetuximab-AVElumab-lung, CAVE-Lung). Search for predictive biomarkers of response was done.Results Avelumab plus cetuximab induced ADCC in NSCLC cells in vitro in presence of natural killers (NK) from healthy donors (HD) or NSCLC pt, as effectors. Sixteen relapsed NSCLC pt were treated with avelumab plus cetuximab. Antitumour activity was observed in 6/16 pt, defined by progression free survival (PFS) ≥8 months, with 4 of them still on treatment at data lock time (range, 14–19 months). Of note, 3/6 responders had received as previous line anti-programmed death-1 therapy. In responders, clinical benefit was accompanied by significant increase in LDH release over baseline at the first radiological evaluation (8 weeks) (p=0.01) and by early skin toxicity; while in the 10 non-responders, that had PFS ≤5 months, LDH release tends to reduce. Baseline circulating DNA levels were higher in non-responders compared with responders and HD (p=0.026) and decrease in responders during therapy. Mutations in DNA damage responsive family genes were found in responders.Conclusion Cetuximab and avelumab activates NSCLC pt NK cells. Ex vivo evaluation of ADCC, circulating DNA levels and early skin toxicity may predict response to cetuximab plus avelumab in NSCLC.EUDRACT 2017-004195-58

Published

2020

45. Genetic counseling during COVID‐19 pandemic: Tuscany experience

Author

Angelica Pagliazzi, Giorgia Mancano, Giulia Forzano, Fabiana diGiovanni, Giulia Gori, Giovanna Traficante, Achille Iolascon, and Sabrina Giglio

Subjects

COVID‐19, genetic counseling, pandemic, telegenetics, telemedicine, Genetics, QH426-470

Abstract

Abstract Background COVID‐19 outbreak prompted health centres to reorganize their clinical and surgical activity. In this paper, we show how medical genetics department's activity, in our tertiary pediatric hospital, has changed due to pandemic. Methods We stratified all our scheduled visits, from March 9th through April 30th, and assessed case‐by‐case which genetic consultations should be maintained as face‐to‐face visit, or postponed/switched to telemedicine. Results Out of 288 scheduled appointments, 60 were prenatal consultations and 228 were postnatal visits. We performed most of prenatal consultations as face‐to‐face visits, as women would have been present in the hospital to perform other procedures in addition to our consult. As for postnatal care, we suspended all outpatient first visits and opted for telemedicine for selected follow‐up consultations: interestingly, 75% of our patients’ parents revealed that they would have cancelled the appointment themselves for the fear to contract an infection. Conclusions Spread of COVID‐19 in Italy forced us to change our working habits. Given the necessity to optimize healthcare resources and minimize the risk of in‐hospital infections, we experienced the benefits of telegenetics. Current pandemic made us familiar with telemedicine, laying the foundations for its application to deal with the increasing number of requests in clinical genetics.

Published

2020

46. Genetic Predisposition to Solid Pediatric Cancers

Author

Mario Capasso, Annalaura Montella, Matilde Tirelli, Teresa Maiorino, Sueva Cantalupo, and Achille Iolascon

Subjects

genetic predisposition, germline variants, cancer predisposition genes, pediatric tumors, cancer susceptibility, germline-somatic interaction, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Progresses over the past years have extensively improved our capacity to use genome-scale analyses—including high-density genotyping and exome and genome sequencing—to identify the genetic basis of pediatric tumors. In particular, exome sequencing has contributed to the evidence that about 10% of children and adolescents with tumors have germline genetic variants associated with cancer predisposition. In this review, we provide an overview of genetic variations predisposing to solid pediatric tumors (medulloblastoma, ependymoma, astrocytoma, neuroblastoma, retinoblastoma, Wilms tumor, osteosarcoma, rhabdomyosarcoma, and Ewing sarcoma) and outline the biological processes affected by the involved mutated genes. A careful description of the genetic basis underlying a large number of syndromes associated with an increased risk of pediatric cancer is also reported. We place particular emphasis on the emerging view that interactions between germline and somatic alterations are a key determinant of cancer development. We propose future research directions, which focus on the biological function of pediatric risk alleles and on the potential links between the germline genome and somatic changes. Finally, the importance of developing new molecular diagnostic tests including all the identified risk germline mutations and of considering the genetic predisposition in screening tests and novel therapies is emphasized.

Published

2020

47. Perspectives on liquid biopsy for label‐free detection of 'circulating tumor cells' through intelligent lab‐on‐chips

Author

Lisa Miccio, Flora Cimmino, Ivana Kurelac, Massimiliano M. Villone, Vittorio Bianco, Pasquale Memmolo, Francesco Merola, Martina Mugnano, Mario Capasso, Achille Iolascon, Pier Luca Maffettone, and Pietro Ferraro

Subjects

cancer, CTCs detection, digital holography artificial intelligence, label‐free, liquid biopsy, microfluidics, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Circulating tumor cells (CTCs) are rare tumor cells released from primary, metastatic, or recurrent tumors in the peripheral blood of cancer patients. CTCs isolation from peripheral blood and their molecular characterization represent a new marker in cancer screening, a diagnostic tool called “liquid biopsy” (LB). Compared to traditional tissue biopsy that is invasive and does not reveal tumor heterogeneity, LB is noninvasive and reflects in “real‐time” tumor dynamism and drug sensitivity. In the frame of LB, a new paradigm based on single‐cell and label‐free analysis based on morphological analysis is emerging. Here, we review the latest research developments in this emerging vision of LB. In particular, we survey and discuss recent improvements in microfluidics, imaging label‐free diagnosis and cell classification by artificial intelligence and how to combine them to realize an intelligent platform based on lab‐on‐chip technology. This prospect appears to open up promising and intriguing new scenarios for cancer management through single‐cell analysis that will revolutionize the future of early cancer diagnosis and therapeutic choice with disruptive impact on the society.

Published

2020

48. Genetic Analysis of the Coronavirus SARS-CoV-2 Host Protease TMPRSS2 in Different Populations

Author

Roberta Russo, Immacolata Andolfo, Vito Alessandro Lasorsa, Achille Iolascon, and Mario Capasso

Subjects

TMPRSS2, COVID-19, SARS-CoV-2, genetic population analysis, eQTL, variant, Genetics, QH426-470

Published

2020

49. Corrigendum: Characterization of Two Cases of Congenital Dyserythropoietic Anemia Type I Shed Light on the Uncharacterized C15orf41 Protein

Author

Roberta Russo, Roberta Marra, Immacolata Andolfo, Gianluca De Rosa, Barbara Eleni Rosato, Francesco Manna, Antonella Gambale, Maddalena Raia, Sule Unal, Susanna Barella, and Achille Iolascon

Subjects

CDA (I–III), C15ORF41, functional characterization of proteins, genetic testing, anemia, Physiology, QP1-981

Published

2020

50. Recommendations for Pregnancy in Rare Inherited Anemias

Author

Ali T. Taher, Achille Iolascon, Charbel F. Matar, Rayan Bou-Fakhredin, Lucia de Franceschi, Maria Domenica Cappellini, Wilma Barcellini, Roberta Russo, Immacolata Andolfo, Paul Tyan, Beatrice Gulbis, Yesim Aydinok, Nicholas P. Anagnou, Gabriela Amstad Bencaiova, Hannah Tamary, Patricia Aguilar Martinez, Gianluca Forni, Raffaele Vindigni, and on behalf of the EHA Scientific Working Group on “Red Cells, Iron”

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract. Rare inherited anemias are a subset of anemias caused by a genetic defect along one of the several stages of erythropoiesis or in different cellular components that affect red blood cell integrity, and thus its lifespan. Due to their low prevalence, several complications on growth and development, and multi-organ system damage are not yet well defined. Moreover, during the last decade there has been a lack of proper understanding of the impact of rare anemias on maternal and fetal outcomes. In addition, there are no clear-cut guidelines outlining the pathophysiological trends and management options unique to this special population. Here, we present on behalf of the European Hematology Association, evidence- and consensus-based guidelines, established by an international group of experts in different fields, including hematologists, gynecologists, general practitioners, medical geneticists, and experts in rare inherited anemias from various European countries for standardized and appropriate choice of therapeutic interventions for the management of pregnancy in rare inherited anemias, including Diamond-Blackfan Anemia, Congenital Dyserythropoietic Anemias, Thalassemia, Sickle Cell Disease, Enzyme deficiency and Red cell membrane disorders.

Published

2020